Furniture leg sock with caster holder

ABSTRACT

A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; and a caster cup. The caster cup may be located in the gap between the outer layer of the stretchable/expandable double-layered non-friction material and the inner layer of the stretchable/expandable double-layered non-friction material; attached to the outer layer of the stretchable/expandable double-layered non-friction material; or attached to the inner layer of the stretchable/expandable double-layered non-friction material.

PRIORITY INFORMATION

The present application is a continuation-in-part of U.S. patent application Ser. No. 14/685,726, filed on Apr. 14, 2015, and claims priority, under 35 U.S.C. §120, from U.S. patent application Ser. No. 14/685,726, filed on Apr. 14, 2015; said U.S. patent application Ser. No. 14/685,726, filed on Apr. 14, 2015, is a continuation-in-part of U.S. patent application Ser. No. 12/075,283, filed on Mar. 11, 2008, and claims priority, under 35 U.S.C. §120, from U.S. patent application Ser. No. 12/075,283, filed on Mar. 11, 2008; said U.S. patent application Ser. No. 12/075,283, filed on Mar. 11, 2008, claiming priority, under 35 U.S.C. §119(e), from U.S. Provisional Patent Application No. 60/963,061, filed on Aug. 3, 2007. The entire content of U.S. patent application Ser. No. 14/685,726, filed on Apr. 14, 2015, is hereby incorporated by reference.

The present application claims priority, under 35 U.S.C. §120, from U.S. patent application Ser. No. 12/075,283, filed on Mar. 11, 2008. The entire content of U.S. patent application Ser. No. 12/075,283, filed on Mar. 11, 2008, is hereby incorporated by reference.

The present application claims priority, under 35 U.S.C. §119(e), from U.S. Provisional Patent Application No. 60/963,061, filed on Aug. 3, 2007. The entire content of U.S. Provisional Patent Application No. 60/963,061, filed on Aug. 3, 2007, is hereby incorporated by reference.

BACKGROUND

To prevent a floor from being damaged when a chair or table is moved, various sizes of felt disks or other soft material has been, conventionally, fastened to the bottom of the chair or table legs. The conventional protective materials are usually attached to the bottom of the furniture legs by adhesives or mechanical fasteners.

Conventional protective products are not durable, and the adhesives tend to lose adhesiveness, ultimately causing the bond to fail. Mechanically connecting a conventional leg covering to the bottom of a furniture leg creates problems in that when the felt deteriorates, the remaining mechanical fastener contributes to a scraping on the floor.

U.S. Pat. No. 6,910,246 illustrates a conventional furniture leg glide in the form of a cup which is slid over the leg. It has an accordion-type section that will adjust itself to any slanting of a furniture leg. The entire content of U.S. Pat. No. 6,910,246 is hereby incorporated by reference.

U.S. Pat. No. 7,159,830 shows a conventional leg slide protector in the form of a spirally wound tube that is inserted into a bore of the leg. This type of protection can be quite cumbersome and expensive to manufacture. The entire content of U.S. Pat. No. 7,159,830 is hereby incorporated by reference.

U.S. Pat. No. 7,124,986 discloses a conventional protective cover for use on the bottom of chairs and table legs. An elastomeric sleeve or cup has a bottom to which is connected a disk or soft dense material such as felt. The entire content of U.S. Pat. No. 7,124,986 is hereby incorporated by reference.

The protective device consists of a sock to be applied to a bottom of a furniture leg. The sock is made of an elastic material and made on a circular knitting machine. The inside surface of the sock has applied thereto a friction material to enhance the friction between the sock and the furniture leg. A top of the circular material is doubled back upon itself to form a double seam. The bottom of the sock is closed by an overcast seam and, ordinarily, does not require any additional material, such as felt, to act in its protective purpose, and that is, to protect a floor from being scratched or marred. However, there times and occasions when additional protection material may be useful such as a felt pad. Such a felt pad may be adhesively applied to a bottom of the sock or on the inside.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings are only for purposes of illustrating various embodiments and are not to be construed as limiting, wherein:

FIG. 1 illustrates a furniture leg and a flexible furniture leg sock prior to being placed on the leg;

FIG. 2 illustrates just a flexible furniture leg sock having expansion properties;

FIG. 3 illustrates the flexible furniture leg sock in an expanded state;

FIG. 4 illustrates an interior of the flexible furniture leg sock with friction material placed therein;

FIG. 5 illustrates a double layered flexible furniture leg sock;

FIG. 6 illustrates a double layered flexible furniture leg sock with stabilizing material;

FIG. 7 illustrates a double layered flexible furniture leg sock with a non-penetration material;

FIG. 8 illustrates a double layered flexible furniture leg sock with stabilizing material and a non-penetration material;

FIG. 9 illustrates a cutaway view of a double layered flexible furniture leg sock with expandable stabilizing material in a non-expanded state;

FIG. 10 illustrates a cutaway view of a double layered flexible furniture leg sock with expandable stabilizing material in an expanded state;

FIG. 11 illustrates a cutaway view of a double layered flexible furniture leg sock with pieces of expandable stabilizing material in a non-expanded state;

FIG. 12 illustrates a cutaway view of a double layered flexible furniture leg sock with expandable stabilizing material and an elastic member;

FIG. 13 illustrates a cutaway view of a double layered flexible furniture leg sock with pieces of expandable stabilizing material and elastic members;

FIG. 14 illustrates a double layered flexible furniture leg sock with a doubled over top portion;

FIG. 15 illustrates a double layered flexible furniture leg sock with a caster holding mechanism fused to an inner surface of the furniture leg sock;

FIG. 16 illustrates a double layered flexible furniture leg sock with a caster holding mechanism attached to an inner surface of the furniture leg sock;

FIG. 17 illustrates a double layered flexible furniture leg sock with a caster holding mechanism fused to an outer surface of the furniture leg sock;

FIG. 18 illustrates a double layered flexible furniture leg sock with a caster holding mechanism attached to an outer surface of the furniture leg sock;

FIG. 19 illustrates a double layered flexible furniture leg sock with a caster holding mechanism located between layers of the furniture leg sock; and

FIG. 20 illustrates a double layered flexible furniture leg sock of FIG. 19 with a furniture leg engaged with the furniture leg sock.

DETAILED DESCRIPTION OF THE DRAWINGS

For a general understanding, reference is made to the drawings. In the drawings, like references have been used throughout to designate identical or equivalent elements. It is also noted that the drawings may not have been drawn to scale and that certain regions may have been purposely drawn disproportionately so that the features and concepts may be properly illustrated.

FIG. 1 illustrates a flexible furniture leg sock 10 prior to being placed on a furniture leg 20. The possible expansion is shown by phantom lines in FIGS. 1 and 2.

FIG. 2 illustrates the flexible furniture leg sock 10 by itself, wherein the flexible furniture leg sock 10 has an upper double thickness by doubling back upon itself and being secured by a seam 2.

The flexible furniture leg sock 10 may be made of knitted material, such as yarns. The yarns in the knitting process may consist of at least two different yarns such as elastic and/or non-elastic. The elastic yarns may be a spandex-type yarn. The knitting is accomplished by a narrow gauge knitting machine which initially will knit an endless tubular hose.

Once the hose is knitted, it will be turned inside out and a friction material 4, such as rubber knobs, as illustrated in FIG. 4, can be applied to the interior surface of the flexible furniture leg sock 10.

It is noted that the application of friction material 4 may be done in a geometric pattern.

After this procedure, the tube will be turned right side out again and an appropriate length will be cut and a double thickness will then be formed by turning a short section of the cut tube inwardly and fasten the same by an appropriate seam 2.

This procedure provides a finished top portion of the flexible furniture leg sock 10.

The open bottom end of the flexible furniture leg sock 10 may be closed on a sewing machine by making an overcast seam 3.

In contrast to the conventional devices disclosed above, the flexible furniture leg sock 10 has no material disks, such as felt, applied to the bottom of the flexible furniture leg sock 10 because the overcast seam 3 provides enough of a cushion to protect the floor below from being marred or scratched.

FIG. 3 shows the top of the flexible furniture leg sock 10 as it can be expanded by arrow A prior to being slipped over a furniture leg. The parallel phantom lines of FIG. 3 illustrate the normal width of the flexible furniture leg sock 10, while the arrow A shows the possible expansion of the flexible furniture leg sock 10.

FIG. 4 illustrates a broken open view of the inside of the flexible furniture leg sock 10. This view shows the friction material 4 after having been applied to the inside surface of the flexible furniture leg sock 10. In this view, there are rubber dots which will provide friction against the furniture leg 20 once the flexible furniture leg sock 10 is applied to the leg 20.

It is noted that other types of friction material patterns, such as horizontal lines or open circles, etc., may be utilized.

As illustrated in FIGS. 1-4, a furniture leg protective sock is provided that prevents the scraping of a floor by a furniture leg. The furniture leg protective sock includes an expandable non-friction material and a friction material.

The expandable non-friction material includes a top portion having an interior surface, an exterior surface and an opening to slip the sock onto the furniture leg; a closed bottom portion having an interior surface and an exterior surface, the closed bottom portion being position between the bottom surface of the furniture leg and the floor when the closed bottom portion engages the furniture leg; and a middle portion having an interior surface and an exterior surface, the middle portion extending between the opening of the top portion and the closed bottom portion, the middle portion engaging the side surface of the furniture leg.

The middle portion is substantially orthogonal, when the closed bottom portion and the middle portion engage the furniture leg, to the closed bottom portion.

The friction material is applied only to a portion of the interior surface of the closed bottom portion and to a portion of the interior surface of the middle portion. The friction material is applied so that the friction material and the interior surface of the closed bottom portion engage the bottom surface of the furniture leg. The friction material is also applied so that the friction material and the interior surface of the middle bottom portion engage the side surface of the furniture leg.

The friction material minimizes, when the furniture leg is moved across the floor, slippage of the sock parallel to the bottom surface of the furniture leg by providing friction therebetween and minimizes slippage of the sock parallel to the side surface of the furniture leg by providing friction therebetween.

The exterior surface of the top portion, closed bottom portion, and the middle portion are without any of the friction material.

It is noted that furniture leg protective sock is capable of being stretched to different widths.

With respect to FIG. 5, a furniture leg protective sock 100 is constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween. As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 has an upper portion 33, a middle portion 35, and a bottom portion 37.

As illustrated in FIG. 5, the furniture leg protective sock 100 includes friction material 40 which is located on the inner surface of the furniture leg protective sock 100. More specifically, as illustrated in FIG. 5, the friction material 40 is located in the middle portion 35 and bottom portion 37 of the inner surface of the furniture leg protective sock 100.

It is noted that, in a different embodiment, the friction material 40 is located in the upper portion 33 of the inner surface of the furniture leg protective sock 100.

In FIG. 6, a furniture leg protective sock 100 is constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween. As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 has an upper portion 33, a middle portion 35, and a bottom portion 37.

As illustrated in FIG. 6, the furniture leg protective sock 100 includes friction material 40 which is located on the inner surface of the furniture leg protective sock 100. More specifically, as illustrated in FIG. 5, the friction material 40 is located in the middle portion 35 and bottom portion 37 of the inner surface of the furniture leg protective sock 100.

It is noted that, in a different embodiment, the friction material 40 is located in the upper portion 33 of the inner surface of the furniture leg protective sock 100.

Moreover, as illustrated in FIG. 6, the furniture leg protective sock 100 includes stabilizing material 50, which is located in the gap (between the inner surface of the inner layer 110 and the inner surface of the outer layer 120).

FIG. 6 illustrates that the stabilizing material 50 may be located in the middle portion 35 and the upper portion 33 of the furniture leg protective sock 100. However, the stabilizing material 50 may be restricted to being only located in the middle portion 35 of the furniture leg protective sock 100.

The stabilizing material 50 provides rigidity to the furniture leg protective sock 100; however, the stabilizing material 50 is stretchable/expandable to enable the furniture leg protective sock 100 to fit over a furniture leg.

It is noted that the stabilizing material 50 may be a single device that provides rigidity and stretchability, or the stabilizing material 50 may be multiple devices that provide rigidity and stretchability.

The stabilizing material 50 may be a stabilizer like the PeHon® 70 Peltex® Ultra-firm Sew In stabilizer or any stabilizing material which provides support and expandability.

In addition, although FIG. 6 illustrates that the stabilizing material 50 is distinct material located in the gap of the furniture leg protective sock 100, the stabilizing material 50 may be a spray-on composition that provides rigidity to a cloth-based material and stretchability.

In FIG. 7, a furniture leg protective sock 100 is constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween. As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 has an upper portion 33, a middle portion 35, and a bottom portion 37.

As illustrated in FIG. 7, the furniture leg protective sock 100 includes friction material 40 which is located on the inner surface of the furniture leg protective sock 100. More specifically, as illustrated in FIG. 7, the friction material 40 is located in the middle portion 35 and bottom portion 37 of the inner surface of the furniture leg protective sock 100.

It is noted that, in a different embodiment, the friction material 40 is located in the upper portion 33 of the inner surface of the furniture leg protective sock 100.

Moreover, as illustrated in FIG. 7, the furniture leg protective sock 100 includes non-penetrating material 60, which is located in the gap (between the inner surface of the inner layer 110 and the inner surface of the outer layer 120).

The non-penetrating material 60 may be composed of a rubber material or other material which would prevent a furniture leg from piercing through the furniture leg protective sock 100.

FIG. 7 illustrates that the non-penetrating material 60 is located in the bottom portion 37 of the furniture leg protective sock 100.

Although FIG. 7 illustrates that the non-penetrating material 60 is located in the gap between the inner surface of the inner layer 110 and the inner surface of the outer layer 120, the non-penetrating material 60 may be located on the inner surface of the bottom portion 37 of the furniture leg protective sock 100.

It is noted that if the non-penetrating material 60 is located on the inner surface of the bottom portion 37 of the furniture leg protective sock 100, the friction material may be formed on the non-penetrating material 60.

It is further noted that if the non-penetrating material 60 is located on the inner surface of the bottom portion 37 of the furniture leg protective sock 100 and the non-penetrating material 60 is composed of a rubber material, the friction material may be left off the bottom portion 37 of the furniture leg protective sock 100.

In FIG. 8, a furniture leg protective sock 100 is constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween. As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 has an upper portion 33, a middle portion 35, and a bottom portion 37.

As illustrated in FIG. 8, the furniture leg protective sock 100 includes friction material 40 which is located on the inner surface of the furniture leg protective sock 100. More specifically, as illustrated in FIG. 8, the friction material 40 is located in the middle portion 35 and bottom portion 37 of the inner surface of the furniture leg protective sock 100.

It is noted that, in a different embodiment, the friction material 40 is located in the upper portion 33 of the inner surface of the furniture leg protective sock 100.

Moreover, as illustrated in FIG. 8, the furniture leg protective sock 100 includes stabilizing material 50, which is located in the gap (between the inner surface of the inner layer 110 and the inner surface of the outer layer 120).

FIG. 8 illustrates that the stabilizing material 50 may be located in the middle portion 35 and the upper portion 33 of the furniture leg protective sock 100. However, the stabilizing material 50 may be restricted to being only located in the middle portion 35 of the furniture leg protective sock 100.

The stabilizing material 50 provides rigidity to the furniture leg protective sock 100; however, the stabilizing material 50 is stretchable/expandable to enable the furniture leg protective sock 100 to fit over a furniture leg.

It is noted that the stabilizing material 50 may be a single device that provides rigidity and stretchability, or the stabilizing material 50 may be multiple devices that provide rigidity and stretchability.

The stabilizing material 50 provides rigidity to the furniture leg protective sock 100; however, the stabilizing material 50 is stretchable/expandable to enable the furniture leg protective sock 100 to fit over a furniture leg.

In addition, although FIG. 8 illustrates that the stabilizing material 50 is distinct material located in the gap of the furniture leg protective sock 100, the stabilizing material 50 may be a spray-on composition that provides rigidity to a cloth-based material and stretchability.

Moreover, as illustrated in FIG. 8, the furniture leg protective sock 100 includes non-penetrating material 60, which is located in the gap (between the inner surface of the inner layer 110 and the inner surface of the outer layer 120).

The non-penetrating material 60 may be composed of a rubber material or other material which would prevent a furniture leg from piercing through the furniture leg protective sock 100.

FIG. 8 illustrates that the non-penetrating material 60 is located in the bottom portion 37 of the furniture leg protective sock 100.

Although FIG. 8 illustrates that the non-penetrating material 60 is located in the gap between the inner surface of the inner layer 110 and the inner surface of the outer layer 120, the non-penetrating material 60 may be located on the inner surface of the bottom portion 37 of the furniture leg protective sock 100.

It is noted that if the non-penetrating material 60 is located on the inner surface of the bottom portion 37 of the furniture leg protective sock 100, the friction material may be formed on the non-penetrating material 60.

It is further noted that if the non-penetrating material 60 is located on the inner surface of the bottom portion 37 of the furniture leg protective sock 100 and the non-penetrating material 60 is composed of a rubber material, the friction material may be left off the bottom portion 37 of the furniture leg protective sock 100.

FIG. 9 illustrates a furniture leg protective sock 100 that includes an inner layer 110 and an outer layer 120 in a non-expanded state. As illustrated in FIG. 9, the inner layer 110 has a diameter of B in the non-expanded state.

Floating between the inner layer 110 and outer layer 120 is a stabilizing material 50 that provides vertical rigidity to the furniture leg protective sock 100. The stabilizing material 50 includes a stabilizing material gap 55 that allows the stabilizing material 50 to “expand” as the furniture leg protective sock 100 expands. This expansion characteristic will be discussed in more detail with respect to FIG. 10.

FIG. 10 illustrates a furniture leg protective sock 100 that includes an inner layer 110 and an outer layer 120 in an expanded state. As illustrated in FIG. 9, the inner layer 110 has a diameter of C in the expanded state. It is noted that diameter C of FIG. 10 is greater than diameter B of FIG. 9.

Floating between the inner layer 110 and outer layer 120 is a stabilizing material 50 that provides vertical rigidity to the furniture leg protective sock 100. The stabilizing material 50 includes a stabilizing material gap 55. As the diameter of the inner layer 110 increases, the width of the stabilizing material gap 55 correspondingly increases because the stabilizing material 50 floats between the inner layer 110 and outer layer 120, thereby allowing the stabilizing material 50 to “expand” with of the inner layer 110 of the furniture leg protective sock 100.

FIG. 11 illustrates a furniture leg protective sock 100 that includes an inner layer 110 and an outer layer 120 in a non-expanded state. As illustrated in FIG. 11, the inner layer 110 has a diameter of B in the non-expanded state.

Floating between the inner layer 110 and outer layer 120 are a plurality of pieces of stabilizing material 500 that provide vertical rigidity to the furniture leg protective sock 100. Between each piece of stabilizing material 500 is a stabilizing material gap 550 that allows the “stabilizing material” to “expand” as the furniture leg protective sock 100 expands.

More specifically, as the diameter of the inner layer 110 increases, the widths of the stabilizing material gaps 550 correspondingly increase, thereby allowing the stabilizing material to “expand” with of the inner layer 110 of the furniture leg protective sock 100.

It is noted that the pieces of stabilizing material 500 may be sewn or fused to the inner surface of the inner layer 110 or the inner surface of the outer layer 120 such that the pieces of stabilizing material 500 provide vertical rigidity to the furniture leg protective sock 100 and the gaps provide expandability or stretchability.

FIG. 12 illustrates a furniture leg protective sock 100 that includes an upper portion 33, a middle portion 35, and a bottom portion 37. As illustrated in FIG. 12, in the middle portion 35, stabilizing material 50 floats between an inner layer and an outer layer of the furniture leg protective sock 100.

To prevent the stabilizing material 50 from retaining an expanded state (larger gap), an elastic material 70 is attached across gap 55. The elastic material 70 biases the two ends of the stabilizing material 50 together, thereby minimizing the width of the gap 55. The elastic material 70 may be sewn or fused to the stabilizing material 50.

FIG. 13 illustrates a furniture leg protective sock 100 that includes an upper portion 33, a middle portion 35, and a bottom portion 37. As illustrated in FIG. 13, in the middle portion 35, pieces of stabilizing material 50 float between an inner layer and an outer layer of the furniture leg protective sock 100.

To prevent the stabilizing material 50 from retaining an expanded state (larger gap), an elastic material 70 is attached across each gap 55. The elastic material 70 biases the two pieces of the stabilizing material 50 together, thereby minimizing the width of each gap 55. The elastic material 70 may be sewn or fused to the pieces of stabilizing material 50.

It is noted that the elastic material 70 may be a single piece of elastic instead of the individual pieces of elastic material 70, as shown in FIG. 13.

FIG. 14 illustrates a furniture leg protective sock 100 that includes an inner layer 110 and an outer layer 120 forming an upper portion 33, a middle portion 35, and a bottom portion 37. As illustrated in FIG. 14, the upper portion 33 is formed by doubling over (80) the inner layer 110 and an outer layer 120 such that the upper portion 33 composes four layers of material.

The furniture leg protective sock 100 of FIG. 14 may optionally include stabilizing material 50 in the middle portion 35 and non-penetrating material 60 in the bottom portion 33.

As illustrated in FIG. 15, a furniture leg protective sock 100 is constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween.

As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 further includes a contoured caster cup 600 composed of plastic or other rigid material. The caster cup 600 may be fused or glued to the inner surface of the inner layer 110.

The caster cup 600 includes a bottom surface, which is associated with a bottom portion of the furniture leg protective sock 100. The caster cup 600 includes a continuous sidewall that is associated with a middle portion of the furniture leg protective sock 100.

It is noted that the sidewall feature may be realized by non-continuous sidewall segments, each non-continuous sidewall segment being a projection from the bottom surface.

It is further noted that the sidewall feature may have a dimension equal to a dimension of a caster on a furniture leg.

It is noted that although not shown, the furniture leg protective sock 100 may include stabilizing material located in the gap 115, as illustrated in FIG. 6 and FIGS. 8 through 14.

Moreover, it is noted that although not shown, the furniture leg protective sock 100 may include a non-penetrating material located in the gap 115, as illustrated in FIG. 7, FIG. 8, and FIG. 14.

FIG. 16 illustrates a furniture leg protective sock 100 constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween.

As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 further includes a contoured caster cup 600 composed of plastic or other rigid material. The caster cup 600 may be attached to the inner surface of the inner layer 110 by attachment pieces 112, wherein the attachment pieces 112 may attach to the caster cup 600 using snaps or a loop/hook system.

It is noted that the attachment pieces 112 may be extensions of the material making up the inner layer 110.

The caster cup 600 includes a bottom surface, which is associated with a bottom portion of the furniture leg protective sock 100. The caster cup 600 includes a continuous sidewall that is associated with a middle portion of the furniture leg protective sock 100.

It is noted that the sidewall feature may be realized by non-continuous sidewall segments, each non-continuous sidewall segment being a projection from the bottom surface.

It is further noted that the sidewall feature may have a dimension equal to a dimension of a caster on a furniture leg.

It is noted that although not shown, the furniture leg protective sock 100 may include stabilizing material located in the gap 115, as illustrated in FIG. 6 and FIGS. 8 through 14.

Moreover, it is noted that although not shown, the furniture leg protective sock 100 may include a non-penetrating material located in the gap 115, as illustrated in FIG. 7, FIG. 8, and FIG. 14.

As illustrated in FIG. 17, a furniture leg protective sock 100 is constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween.

As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 further includes a contoured caster cup 600 composed of plastic or other rigid material. The caster cup 600 may be fused or glued to the outer surface of the outer layer 120.

The caster cup 600 includes a bottom surface, which is associated with a bottom portion of the furniture leg protective sock 100. The caster cup 600 includes a continuous sidewall that is associated with a middle portion of the furniture leg protective sock 100.

It is noted that the sidewall feature may be realized by non-continuous sidewall segments, each non-continuous sidewall segment being a projection from the bottom surface.

It is further noted that the sidewall feature may have a dimension equal to a dimension of a caster on a furniture leg.

It is noted that although not shown, the furniture leg protective sock 100 may include stabilizing material located in the gap 115, as illustrated in FIG. 6 and FIGS. 8 through 14.

Moreover, it is noted that although not shown, the furniture leg protective sock 100 may include a non-penetrating material located in the gap 115, as illustrated in FIG. 7, FIG. 8, and FIG. 14.

The furniture leg protective sock 100 may also include optional friction material 40 located on the inner surface of the inner layer 110.

FIG. 18 illustrates a furniture leg protective sock 100 constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween.

As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 further includes a contoured caster cup 600 composed of plastic or other rigid material. The caster cup 600 may be attached to the outer surface of the outer layer 120 by attachment pieces 112, wherein the attachment pieces 112 may attach to the caster cup 600 using snaps or a loop/hook system.

It is noted that the attachment pieces 112 may be extensions of the material making up the outer layer 120.

The caster cup 600 includes a bottom surface, which is associated with a bottom portion of the furniture leg protective sock 100. The caster cup 600 includes a continuous sidewall that is associated with a middle portion of the furniture leg protective sock 100.

It is noted that the sidewall feature may be realized by non-continuous sidewall segments, each non-continuous sidewall segment being a projection from the bottom surface.

It is further noted that the sidewall feature may have a dimension equal to a dimension of a caster on a furniture leg.

It is noted that although not shown, the furniture leg protective sock 100 may include stabilizing material located in the gap 115, as illustrated in FIG. 6 and FIGS. 8 through 14.

Moreover, it is noted that although not shown, the furniture leg protective sock 100 may include a non-penetrating material located in the gap 115, as illustrated in FIG. 7, FIG. 8, and FIG. 14.

The furniture leg protective sock 100 may also include optional friction material 40 located on the inner surface of the inner layer 110.

FIG. 19 illustrates a furniture leg protective sock 100 constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween.

As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 further includes a contoured caster cup 600 composed of plastic or other rigid material. The caster cup 600 may be located in the gap 115 of the furniture leg protective sock 100.

The caster cup 600 includes a bottom surface, which is associated with a bottom portion of the furniture leg protective sock 100. The caster cup 600 includes a continuous sidewall that is associated with a middle portion of the furniture leg protective sock 100.

It is noted that the sidewall feature may be realized by non-continuous sidewall segments, each non-continuous sidewall segment being a projection from the bottom surface.

It is further noted that the sidewall feature may have a dimension equal to a dimension of a caster on a furniture leg.

The furniture leg protective sock 100 may also include optional friction material 40 located on the inner surface of the inner layer 110.

FIG. 20 illustrates a furniture leg protective sock 100 constructed on a stretchable/expandable non-friction material, which is double-layered to form an outer layer 120, an inner layer 110, and a gap 115 therebetween.

As illustrated, the furniture leg protective sock 100 is “cupped” shape, wherein the outer layer 120 forms an outer surface of the “cupped” shaped furniture leg protective sock 100, and inner layer 110 forms the inner surface of the “cupped” shaped furniture leg protective sock 100.

It is noted that furniture leg protective sock 100 may have alternative shapes which include an enclosed bottom, sides, and an opened top.

The outer layer 120 has an inner surface and an outer surface, wherein the inner surface of the outer layer 120 defines a portion of the gap 115 and the outer surface of the outer layer 120 defines the outer surface of the furniture leg protective sock 100.

The inner layer 110 has an inner surface and an outer surface, wherein the inner surface of the inner layer 110 defines a portion of the gap 115 and the outer surface of the inner layer 110 defines the inner surface of the furniture leg protective sock 100.

The furniture leg protective sock 100 further includes a contoured caster cup 600 composed of plastic or other rigid material. The caster cup 600 may be located in the gap 115 of the furniture leg protective sock 100.

The caster cup 600 includes a bottom surface, which is associated with a bottom portion of the furniture leg protective sock 100. The caster cup 600 includes a continuous sidewall that is associated with a middle portion of the furniture leg protective sock 100.

As illustrated in FIG. 20, the caster 15 of the furniture leg 20 is positioned in the caster cup (600) defined volume of the furniture leg protective sock 100.

Moreover, as illustrated in FIG. 20, the top portion of the furniture leg protective sock 100 may be long enough to cover the top of the caster 15 yet short enough to retain its vertical state, thereby effectively covering the caster 15 so that only the furniture leg 20 is visible.

It is further noted that a stabilizing material or fabric stiffening material could be used in the top portion of the furniture leg protective sock 100 to enable the top portion of the furniture leg protective sock 100 in retaining its vertical state.

It is also noted that the top portion of the furniture leg protective sock 100 may be folded over to cover the top of the caster 15, thereby effectively covering the caster 15 so that only the furniture leg 20 is visible.

It is additionally noted that the sidewall feature of the caster cup 600 may be realized by non-continuous sidewall segments, each non-continuous sidewall segment being a projection from the bottom surface.

It is further noted that the sidewall feature may have a dimension equal to a dimension of a caster on a furniture leg.

The furniture leg protective sock 100 may also include optional friction material 40 located on the inner surface of the inner layer.

In summary, a furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; stabilizing material to provide rigidity and stretchability; and friction material. The stretchable/expandable double-layered non-friction material forms a cupped shape having an inner surface and an outer surface. The friction material is formed on the inner surface, and the stabilizing material is located in the gap between the inner layer and the outer layer.

The stretchable/expandable double-layered non-friction material may include a top portion having an inner surface, an outer surface and an opening to slip the sock onto the furniture leg; a bottom portion having an inner surface and an outer surface, the bottom portion being position between the bottom surface of the furniture leg and the floor when the bottom portion engages the furniture leg; and a middle portion having an inner surface and an outer surface, the middle portion extending between the opening of the top portion and the bottom portion, the middle portion engaging the side surface of the furniture leg.

The middle portion may be substantially orthogonal, when the bottom portion and the middle portion engage the furniture leg, to the bottom portion.

The stabilizing material may be located in the gap between the inner layer and the outer layer located in the middle portion.

The friction material may be applied only to a portion of the inner surface of the bottom portion and to a portion of the inner surface of the middle portion; the friction material applied to the portion of the inner surface of the bottom portion engaging the bottom surface of the furniture leg; the inner surface of the closed bottom portion engaging the bottom surface of the furniture leg; the friction material applied to the portion of the inner surface of the middle bottom portion engaging the side surface of the furniture leg; the inner surface of the middle bottom portion engaging the side surface of the furniture leg; the friction material applied to the portion of the inner surface of the bottom portion minimizing, when the furniture leg is moved across the floor, slippage of the sock parallel to the bottom surface of the furniture leg by providing friction therebetween; the friction material applied to the portion of the inner surface of the middle bottom portion minimizing slippage of the sock parallel to the side surface of the furniture leg by providing friction therebetween.

The friction material may define a geometric pattern on the inner surface, and the friction material may be composed of a rubberized material.

The stabilizing material may float in the gap between the inner layer and the outer layer located in the middle portion.

The stabilizing material may be a plurality of adjacent pieces of stabilizing material that float in the gap between the inner layer and the outer layer located in the middle portion.

The stabilizing material may include a stabilizing material gap.

The furniture leg protective sock may include elastic material, the elastic material being attached, across the stabilizing material gap, to the stabilizing material on either side of the stabilizing material gap.

The adjacent pieces of stabilizing material may include a stabilizing material gap therebetween.

The furniture leg protective sock may include elastic material, the elastic material being attached, across the stabilizing material gap, to adjacent pieces of stabilizing material.

The stabilizing material may be a plurality of adjacent pieces of stabilizing material that are located in the gap between the inner layer and the outer layer located in the middle portion.

A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; non-penetrating material to prevent a furniture leg from piercing through the stretchable/expandable double-layered non-friction material; and friction material. The stretchable/expandable double-layered non-friction material forms a cupped shape having an inner surface and an outer surface. The friction material is formed on the inner surface. The non-penetrating material is located in the gap between the inner layer and the outer layer.

The stretchable/expandable double-layered non-friction material may include a top portion having an inner surface, an outer surface and an opening to slip the sock onto the furniture leg; a bottom portion having an inner surface and an outer surface, the bottom portion being position between the bottom surface of the furniture leg and the floor when the bottom portion engages the furniture leg; and a middle portion having an inner surface and an outer surface, the middle portion extending between the opening of the top portion and the bottom portion, the middle portion engaging the side surface of the furniture leg.

The middle portion may be substantially orthogonal, when the bottom portion and the middle portion engage the furniture leg, to the bottom portion.

The non-penetrating material may be located in the gap between the inner layer and the outer layer located in the bottom portion.

The friction material may be applied only to a portion of the inner surface of the bottom portion and to a portion of the inner surface of the middle portion; the friction material applied to the portion of the inner surface of the bottom portion engaging the bottom surface of the furniture leg; the inner surface of the closed bottom portion engaging the bottom surface of the furniture leg; the friction material applied to the portion of the inner surface of the middle bottom portion engaging the side surface of the furniture leg; the inner surface of the middle bottom portion engaging the side surface of the furniture leg; the friction material applied to the portion of the inner surface of the bottom portion minimizing, when the furniture leg is moved across the floor, slippage of the sock parallel to the bottom surface of the furniture leg by providing friction therebetween; the friction material applied to the portion of the inner surface of the middle bottom portion minimizing slippage of the sock parallel to the side surface of the furniture leg by providing friction therebetween.

The friction material may define a geometric pattern on the inner surface, and the friction material may be composed of a rubberized material.

A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; non-penetrating material to prevent a furniture leg from piercing through the stretchable/expandable double-layered non-friction material; stabilizing material to provide rigidity and stretchability; and friction material. The stretchable/expandable double-layered non-friction material forms a cupped shape having an inner surface and an outer surface. The friction material is formed on the inner surface. The non-penetrating material is located in the gap between the inner layer and the outer layer. The stabilizing material is located in the gap between the inner layer and the outer layer.

The stretchable/expandable double-layered non-friction material may include a top portion having an inner surface, an outer surface and an opening to slip the sock onto the furniture leg; a bottom portion having an inner surface and an outer surface, the bottom portion being position between the bottom surface of the furniture leg and the floor when the bottom portion engages the furniture leg; and a middle portion having an inner surface and an outer surface, the middle portion extending between the opening of the top portion and the bottom portion, the middle portion engaging the side surface of the furniture leg.

The middle portion may be substantially orthogonal, when the bottom portion and the middle portion engage the furniture leg, to the bottom portion.

The non-penetrating material may be located in the gap between the inner layer and the outer layer located in the bottom portion.

The stabilizing material may be located in the gap between the inner layer and the outer layer located in the middle portion.

The friction material may be applied only to a portion of the inner surface of the bottom portion and to a portion of the inner surface of the middle portion; the friction material applied to the portion of the inner surface of the bottom portion engaging the bottom surface of the furniture leg; the inner surface of the closed bottom portion engaging the bottom surface of the furniture leg; the friction material applied to the portion of the inner surface of the middle bottom portion engaging the side surface of the furniture leg; the inner surface of the middle bottom portion engaging the side surface of the furniture leg; the friction material applied to the portion of the inner surface of the bottom portion minimizing, when the furniture leg is moved across the floor, slippage of the sock parallel to the bottom surface of the furniture leg by providing friction therebetween; the friction material applied to the portion of the inner surface of the middle bottom portion minimizing slippage of the sock parallel to the side surface of the furniture leg by providing friction therebetween.

The friction material may define a geometric pattern on the inner surface, and the friction material may be composed of a rubberized material.

The non-penetrating material may be located in the gap between the inner layer and the outer layer.

The stabilizing material may be located in the gap between the inner layer and the outer layer.

The stabilizing material may be a plurality of adjacent pieces of stabilizing material located in the gap between the inner layer and the outer layer.

The stabilizing material may include a stabilizing material gap.

The furniture leg protective sock may include elastic material, wherein the elastic material is attached, across the stabilizing material gap, to the stabilizing material on either side of the stabilizing material gap.

The furniture leg protective sock may include elastic material, wherein adjacent pieces of stabilizing material include a stabilizing material gap therebetween, and the elastic material is attached, across the stabilizing material gap, to adjacent pieces of stabilizing material.

A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; non-penetrating material to prevent a furniture leg from piercing through the stretchable/expandable double-layered non-friction material; and friction material. The stretchable/expandable double-layered non-friction material forms a cupped shape having an inner surface and an outer surface. The stretchable/expandable double-layered non-friction material includes a top portion; a bottom portion having an inner surface and an outer surface; and a middle portion having an inner surface and an outer surface. The friction material is formed on the inner surface of the middle portion. The non-penetrating material is located in the bottom portion.

The non-penetrating material may be located on the inner surface of the bottom portion.

The non-penetrating material may be located in the gap between the inner layer and the outer layer located in the bottom portion.

A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; non-penetrating material to prevent a furniture leg from piercing through the stretchable/expandable double-layered non-friction material; stabilizing material to provide rigidity and stretchability; and friction material. The stretchable/expandable double-layered non-friction material forms a cupped shape having an inner surface and an outer surface. The stretchable/expandable double-layered non-friction material includes a top portion; a bottom portion having an inner surface and an outer surface; and a middle portion having an inner surface and an outer surface. The friction material is formed on the inner surface of the middle portion. The non-penetrating material is located in the bottom portion. The stabilizing material is located in the gap between the inner layer and the outer layer.

The non-penetrating material may be located in the gap between the inner layer and the outer layer.

The non-penetrating material may be located on the inner surface of the bottom portion.

The stabilizing material may be located in the gap between the inner layer and the outer layer.

The stabilizing material may be a plurality of adjacent pieces of stabilizing material located in the gap between the inner layer and the outer layer.

The furniture leg protective sock further includes elastic material; the stabilizing material including a stabilizing material gap; the elastic material being attached, across the stabilizing material gap, to the stabilizing material on either side of the stabilizing material gap.

The furniture leg protective sock further includes elastic material; the adjacent pieces of stabilizing material including a stabilizing material gap therebetween; the elastic material being attached, across the stabilizing material gap, to adjacent pieces of stabilizing material.

A furniture leg protective sock includes a non-friction material. The non-friction material includes a top portion having an interior surface, an exterior surface and an opening to slip the sock onto the furniture leg, a closed bottom portion having an interior surface and an exterior surface, the closed bottom portion being position between the bottom surface of the furniture leg and the floor when the closed bottom portion engages the furniture leg, and a middle portion having an interior surface and an exterior surface, the middle portion extending between the opening of the top portion and the closed bottom portion, the middle portion engaging the side surface of the furniture leg

The middle portion is substantially orthogonal, when the closed bottom portion and the middle portion engage the furniture leg, to the closed bottom portion.

The furniture leg protective sock also includes friction material being applied only to a portion of the interior surface of the closed bottom portion and to a portion of the interior surface of the middle portion.

The friction material applied to the portion of the interior surface of the closed bottom portion engages the bottom surface of the furniture leg. The interior surface of the closed bottom portion engages the bottom surface of the furniture leg.

The friction material applied to the portion of the interior surface of the middle bottom portion engages the side surface of the furniture leg. The interior surface of the middle bottom portion engages the side surface of the furniture leg.

The friction material applied to the portion of the interior surface of the closed bottom portion minimizes, when the furniture leg is moved across the floor, slippage of the sock parallel to the bottom surface of the furniture leg by providing friction therebetween.

The friction material applied to the portion of the interior surface of the middle bottom portion minimizes slippage of the sock parallel to the side surface of the furniture leg by providing friction therebetween.

The friction material enhances the friction between the sock and the furniture leg.

The exterior surface of the top portion, closed bottom portion, and the middle portion is without any of the friction material.

The closed bottom portion includes an overcast seam to provide a cushion between the furniture leg and the floor.

The top portion may include a finished top edge.

The finished top edge may be a double backed section of the sock.

The sock may be capable of being stretched to different widths.

The friction material may define a geometric pattern on the interior surface.

The friction material may provide an additional layer of insulation to the closed bottom portion of the sock.

The friction material may include a form of rubberized material.

A furniture leg protective sock consists essentially of a non-friction material and friction material. The non-friction material includes a top portion having an interior surface, an exterior surface and an opening to slip the sock onto the furniture leg, a closed bottom portion having an interior surface and an exterior surface, the closed bottom portion being position between the bottom surface of the furniture leg and the floor when the closed bottom portion engages the furniture leg, and a middle portion having an interior surface and an exterior surface, the middle portion extending between the opening of the top portion and the closed bottom portion, the middle portion engaging the side surface of the furniture leg.

The middle portion is substantially orthogonal, when the closed bottom portion and the middle portion engage the furniture leg, to the closed bottom portion.

The friction material is applied only to a portion of the interior surface of the closed bottom portion and to a portion of the interior surface of the middle portion.

The friction material applied to the portion of the interior surface of the closed bottom portion engages the bottom surface of the furniture leg. The interior surface of the closed bottom portion engages the bottom surface of the furniture leg.

The friction material applied to the portion of the interior surface of the middle bottom portion engages the side surface of the furniture leg. The interior surface of the middle bottom portion engaging the side surface of the furniture leg.

The friction material applied to the portion of the interior surface of the closed bottom portion minimizes, when the furniture leg is moved across the floor, slippage of the sock parallel to the bottom surface of the furniture leg by providing friction therebetween.

The friction material applied to the portion of the interior surface of the middle bottom portion minimizes slippage of the sock parallel to the side surface of the furniture leg by providing friction therebetween.

The friction material enhances the friction between the sock and the furniture leg.

The exterior surface of the top portion, closed bottom portion, and the middle portion is without any of the friction material. The closed bottom portion includes an overcast seam to provide a cushion between the furniture leg and the floor.

The top portion may include a finished top edge.

The finished top edge may be a double backed section of the sock.

The sock may be capable of being stretched to different widths.

A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; and a caster cup. The caster cup is attached to the inner layer of the stretchable/expandable double-layered non-friction material.

The caster cup may be attached to the inner layer of the stretchable/expandable double-layered non-friction material by fusing the caster cup to the inner layer.

The caster cup may be attached to the inner layer of the stretchable/expandable double-layered non-friction material by gluing the caster cup to the inner layer.

The caster cup may be attached to the inner layer of the stretchable/expandable double-layered non-friction material by a hook/loop mechanism.

The caster cup may be attached to the inner layer of the stretchable/expandable double-layered non-friction material by snaps.

The furniture leg protective sock may include stabilizing material; wherein the stabilizing material floats in the gap between the inner layer and the outer layer.

The stabilizing material may be a plurality of adjacent pieces of stabilizing material that float in the gap between the inner layer and the outer layer.

The stabilizing material may include a stabilizing material gap.

The furniture leg protective sock may include elastic material; the elastic material being attached, across the stabilizing material gap, to the stabilizing material on either side of the stabilizing material gap.

The furniture leg protective sock may include non-penetrating material to prevent a furniture leg from piercing through the stretchable/expandable double-layered non-friction material; the non-penetrating material floating in the gap between the inner layer and the outer layer.

A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; and a caster cup; the caster cup being attached to the outer layer of the stretchable/expandable double-layered non-friction material.

The caster cup may be attached to the outer layer of the stretchable/expandable double-layered non-friction material by fusing the caster cup to the outer layer.

The caster cup may be attached to the outer layer of the stretchable/expandable double-layered non-friction material by gluing the caster cup to the outer layer.

The caster cup may be attached to the outer layer of the stretchable/expandable double-layered non-friction material by a hook/loop mechanism.

The caster cup may be attached to the outer layer of the stretchable/expandable double-layered non-friction material by snaps.

The furniture leg protective sock may include stabilizing material; wherein the stabilizing material floats in the gap between the inner layer and the outer layer.

The stabilizing material may be a plurality of adjacent pieces of stabilizing material that float in the gap between the inner layer and the outer layer.

The stabilizing material may include a stabilizing material gap.

The furniture leg protective sock may include elastic material; the elastic material being attached, across the stabilizing material gap, to the stabilizing material on either side of the stabilizing material gap.

The furniture leg protective sock may include non-penetrating material to prevent a furniture leg from piercing through the stretchable/expandable double-layered non-friction material; the non-penetrating material floating in the gap between the inner layer and the outer layer.

A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor includes a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; and a caster cup; the caster cup being located in the gap between the outer layer of the stretchable/expandable double-layered non-friction material and the inner layer of the stretchable/expandable double-layered non-friction material.

It will be appreciated that variations of the above-disclosed embodiments and other features and functions, or alternatives thereof, may be desirably combined into many other different systems or applications. Also, various presently unforeseen or unanticipated alternatives, modifications, variations or improvements therein may be subsequently made by those skilled in the art which are also intended to be encompassed by the description above and the following claims. 

What is claimed is:
 1. A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor, comprising: a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; and a caster cup; said caster cup being attached to said inner layer of said stretchable/expandable double-layered non-friction material.
 2. The furniture leg protective sock as claimed in claim 1, wherein said caster cup being attached to said inner layer of said stretchable/expandable double-layered non-friction material by fusing said caster cup to said inner layer.
 3. The furniture leg protective sock as claimed in claim 1, wherein said caster cup being attached to said inner layer of said stretchable/expandable double-layered non-friction material by gluing said caster cup to said inner layer.
 4. The furniture leg protective sock as claimed in claim 1, wherein said caster cup being attached to said inner layer of said stretchable/expandable double-layered non-friction material by a hook/loop mechanism.
 5. The furniture leg protective sock as claimed in claim 1, wherein said caster cup being attached to said inner layer of said stretchable/expandable double-layered non-friction material by snaps.
 6. The furniture leg protective sock as claimed in claim 1, further comprising: stabilizing material said stabilizing material floating in said gap between said inner layer and said outer layer.
 7. The furniture leg protective sock as claimed in claim 6, wherein said stabilizing material is a plurality of adjacent pieces of stabilizing material that float in said gap between said inner layer and said outer layer.
 8. The furniture leg protective sock as claimed in claim 6, wherein said stabilizing material includes a stabilizing material gap.
 9. The furniture leg protective sock as claimed in claim 6, further comprising: elastic material; said elastic material being attached, across said stabilizing material gap, to said stabilizing material on either side of said stabilizing material gap.
 10. The furniture leg protective sock as claimed in claim 1, further comprising: non-penetrating material to prevent a furniture leg from piercing through said stretchable/expandable double-layered non-friction material; said non-penetrating material floating in said gap between said inner layer and said outer layer.
 11. A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor, comprising: a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; and a caster cup; said caster cup being attached to said outer layer of said stretchable/expandable double-layered non-friction material.
 12. The furniture leg protective sock as claimed in claim 11, wherein said caster cup being attached to said outer layer of said stretchable/expandable double-layered non-friction material by fusing said caster cup to said outer layer.
 13. The furniture leg protective sock as claimed in claim 11, wherein said caster cup being attached to said outer layer of said stretchable/expandable double-layered non-friction material by gluing said caster cup to said outer layer.
 14. The furniture leg protective sock as claimed in claim 11, wherein said caster cup being attached to said outer layer of said stretchable/expandable double-layered non-friction material by a hook/loop mechanism.
 15. The furniture leg protective sock as claimed in claim 11, wherein said caster cup being attached to said outer layer of said stretchable/expandable double-layered non-friction material by snaps.
 16. The furniture leg protective sock as claimed in claim 11, further comprising: stabilizing material said stabilizing material floating in said gap between said inner layer and said outer layer.
 17. The furniture leg protective sock as claimed in claim 16, wherein said stabilizing material is a plurality of adjacent pieces of stabilizing material that float in said gap between said inner layer and said outer layer.
 18. The furniture leg protective sock as claimed in claim 16, wherein said stabilizing material includes a stabilizing material gap.
 19. The furniture leg protective sock as claimed in claim 16, further comprising: elastic material; said elastic material being attached, across said stabilizing material gap, to said stabilizing material on either side of said stabilizing material gap.
 20. The furniture leg protective sock as claimed in claim 1, further comprising: non-penetrating material to prevent a furniture leg from piercing through said stretchable/expandable double-layered non-friction material; said non-penetrating material floating in said gap between said inner layer and said outer layer.
 21. A furniture leg protective sock to prevent a furniture leg from scraping or marring a floor, comprising: a stretchable/expandable double-layered non-friction material to form an outer layer, an inner layer, and a gap therebetween; and a caster cup; said caster cup being located in said gap between said outer layer of said stretchable/expandable double-layered non-friction material and said inner layer of said stretchable/expandable double-layered non-friction material. 